Nowadays, conductive ton bags are often used when transporting and storing textile materials. However, the existing conductive ton bags still have some drawbacks. Firstly, due to the contact friction and drying between textile materials, they are prone to generate static electricity, which can easily lead to many drawbacks. Dust in the air adheres to the surface of textile materials, affecting their subsequent processing. At the same time, under the action of static electricity, textile materials are easy to adhere to the inner wall of the ton bag. It is inconvenient to handle textile materials and clean ton bags. Secondly, when the toner bag is filled with materials, the operator needs to support the opening of the toner bag, which makes the operation less convenient. At the same time, the height of the conductive ton bag is difficult to adjust, making it inconvenient for the actual filling and use of materials.

To solve the problem of traditional toner bags being prone to static electricity during transportation and storage, and the difficulty in eliminating static electricity inside the toner bags, which is not convenient for material storage and use, our technicians have proposed an anti-static and environmentally friendly toner bag. To achieve the above objectives, the conductive ton bag adopts the following technical solution: an anti-static conductive ton bag, which includes a bag body and a lifting belt. The four corners at the top of the bag body are fixedly connected to the lifting belt, a conductive film is sewn on the inner side of the bag body, a bottom plate is fixedly connected to the bottom of the bag body, and the lower end face of the bottom plate is fixedly connected to four groups of support blocks distributed in a circular array. The bottom of the four groups of support blocks is embedded with conductive blocks. The conductive film material is aluminum foil film, but not limited to aluminum foil film. The top of the conductive block is fixedly connected to the electrical wiring column passing through the support block and the bottom plate, and the top of the electrical wiring column is fixedly connected to the lower end face of the conductive film. The material of the conductive block is iron, but not limited to iron. The four corners at the top of the bottom plate are fixedly connected with vertically distributed inner screw sleeves; The four corners of the package are located above the inner screw sleeve and fixedly connected to the bracket; The bracket is rotationally connected with an outer screw, and the bottom end of the outer screw is screwed into the inner screw sleeve.

In summary, due to the adoption of the above technical solution, the conductive ton bag has the following beneficial effects: 1. The conductive ton bag has a conductive electrostatic discharge structure inside the bag, a conductive film inside the bag, and a conductive block on the support block of the bottom plate. When static electricity is generated inside the bag, it will be absorbed by the conductive film and transmitted to the conductive block through the electrical connection column. When the conductive block comes into contact with the ground, static electricity will be transmitted to the ground, thereby eliminating static electricity. This structure can transmit the static electricity generated in the toner bag to the ground and reduce the residual static electricity between the material and the toner bag, making it easier to access textile materials and clean the toner bag. 2. The conductive ton bag is equipped with an internal lifting brace structure, and the bottom plate and four corners of the bag body are equipped with internal screw sleeves, external screws, and brackets. Under the support of four sets of inner screw sleeves, outer screws, and brackets, the opening of the bag body will always remain rectangular. When it is necessary to adjust the height of the bag opening, rotate the screw sleeve on the outer screw. Under the transmission of the outer screw and the inner screw, the bracket can be vertically lifted and lowered. This structure can support the opening of the ton bag at different heights, facilitating the adjustment and filling of materials, and also improving the convenience of filling conductive ton bags.